A poodle is chasing after a frisbee at the park. The frisbeeis maintaining a height of h = 0.95 m as it passes throughthe air. The poodle leaps into the air, from level groundand with initial speed vi at an angle of θ = 52° above thehorizontal. She catches the frisbee in midair 0.40 s afterjumping. (She has not yet reached the peak of her trajec-tory when she catches the frisbee.) How much horizontaldistance ∆x does she cover between jumping and catchingthe frisbee? For the representation, draw the trajectoriesof the dog and the frisbee, making sure to label all relevantinformation. (Note: feel free include the quantity vi whenstarting out your equation work. But you should find thatyou don’t need to know the value of vi in order to solvethis problem, which is why a value hasn’t been providedfor you.)

A baseball leaves the bat with a speed of 47 m/s and an angle of 45 degrees above the horizontal. A 5.0 m high fence is located at the horizontal distance of 137 m from the point where the ball is struck. Assuming the ball leaves the bat 1.0 m above ground level, by how much does the ball clear the fence?

A baseball player friend of yours wants to determine his pitching speed. You have him stand on a ledge and throw the ball horizontally from an elevation 4.0 mm above the ground. The ball lands 30 mm away.

A projectile is launched off of a 19.6 m high building with an initial velocity of 26.4 m/s at an angle of 33.2 degrees relative to the horizontal. What is the speed of the projectile when it reaches it maximum height?

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A frat boy throws a ping pong ball from 0.6 m above a table at 5 m/s and wants to land it in a 20 cm cup 1 m away along the table. At what angle above the horizontal should he throw it?

In the figure, a stone is projected at a cliff of height h with an initial speed of 49.0 m/s directed at an angle 60 = 59.0° above the horizontal. The stone strikes at A, 5.74 s after launching. Find (a) the height h of the cliff, (b) the speed of the stone just before impact at A, and (c) the maximum height Hreached above the ground. A (a) Number i Units (b) Number i Units (c) Number i Units >

A clump of soft clay is thrown horizontally from 7.80 m above the ground with a speed of 20.0 m/s. Assume it sticks in place when it hits the ground. What is the horizontal distance along the ground after 1.50 s?

A firefighter d = 55.0 m away from a burning building aims a jet of water from a firehose at an angle of 8 = 51.0° above the horizontal. The water has initial speed vo= 38.0 m/s. Assume the height of the firehose's nozzle to be negligible. a) What is inm/s the horizontal component of the velocity of the water when it hits the wall? CHECK b) How long in seconds will it take the water to reach the wall? CHECK c) At what height in meters will the water strike the building? CHECK